Effects of spatial and temporal variability in surface  water inputs on streamflow generation and  cessation in the rain–snow transition zone

Kiewiet, Leonie; Trujillo, Ernesto; Hedrick, Andrew; Havens, Scott; Hale, Katherine; Seyfried, Mark; Kampf, Stephanie; Godsey, Sarah E.

doi:10.5194/hess-26-2779-2022

Articles | Volume 26, issue 10

https://doi.org/10.5194/hess-26-2779-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/hess-26-2779-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 26, issue 10

Research article

|

01 Jun 2022

Research article |

| 01 Jun 2022

Effects of spatial and temporal variability in surface water inputs on streamflow generation and cessation in the rain–snow transition zone

Leonie Kiewiet, Ernesto Trujillo, Andrew Hedrick, Scott Havens, Katherine Hale, Mark Seyfried, Stephanie Kampf, and Sarah E. Godsey

Viewed

Total article views: 4,116 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,845	1,164	107	4,116	328	116	142

HTML: 2,845
PDF: 1,164
XML: 107
Total: 4,116
Supplement: 328
BibTeX: 116
EndNote: 142

Views and downloads (calculated since 13 Jul 2021)

Month	HTML	PDF	XML	Total
Jul 2021	205	46	2	253
Aug 2021	35	13	0	48
Sep 2021	40	8	1	49
Oct 2021	78	18	4	100
Nov 2021	51	19	1	71
Dec 2021	29	11	1	41
Jan 2022	43	10	0	53
Feb 2022	26	12	0	38
Mar 2022	30	5	1	36
Apr 2022	28	13	1	42
May 2022	17	12	1	30
Jun 2022	344	75	6	425
Jul 2022	65	34	1	100
Aug 2022	75	33	0	108
Sep 2022	80	23	0	103
Oct 2022	29	21	1	51
Nov 2022	40	24	0	64
Dec 2022	34	29	0	63
Jan 2023	36	28	2	66
Feb 2023	27	14	1	42
Mar 2023	24	20	0	44
Apr 2023	23	11	3	37
May 2023	19	19	0	38
Jun 2023	37	17	2	56
Jul 2023	22	30	3	55
Aug 2023	24	16	6	46
Sep 2023	16	17	2	35
Oct 2023	25	14	2	41
Nov 2023	13	9	0	22
Dec 2023	14	7	1	22
Jan 2024	26	9	0	35
Feb 2024	26	26	2	54
Mar 2024	28	28	1	57
Apr 2024	38	10	4	52
May 2024	38	14	4	56
Jun 2024	61	16	2	79
Jul 2024	54	4	2	60
Aug 2024	53	12	2	67
Sep 2024	26	9	0	35
Oct 2024	38	19	1	58
Nov 2024	24	9	0	33
Dec 2024	20	4	1	25
Jan 2025	31	19	0	50
Feb 2025	33	14	1	48
Mar 2025	45	15	0	60
Apr 2025	52	20	3	75
May 2025	42	11	0	53
Jun 2025	48	32	0	80
Jul 2025	55	22	3	80
Aug 2025	43	25	1	69
Sep 2025	65	19	2	86
Oct 2025	54	23	1	78
Nov 2025	52	28	4	84
Dec 2025	59	56	3	118
Jan 2026	88	20	13	121
Feb 2026	73	24	4	101
Mar 2026	57	33	5	95
Apr 2026	86	35	6	127
May 2026	1	0	1

Cumulative views and downloads (calculated since 13 Jul 2021)

Month	HTML	PDF	XML	Total
Jul 2021	205	46	2	253
Aug 2021	35	13	0	48
Sep 2021	40	8	1	49
Oct 2021	78	18	4	100
Nov 2021	51	19	1	71
Dec 2021	29	11	1	41
Jan 2022	43	10	0	53
Feb 2022	26	12	0	38
Mar 2022	30	5	1	36
Apr 2022	28	13	1	42
May 2022	17	12	1	30
Jun 2022	344	75	6	425
Jul 2022	65	34	1	100
Aug 2022	75	33	0	108
Sep 2022	80	23	0	103
Oct 2022	29	21	1	51
Nov 2022	40	24	0	64
Dec 2022	34	29	0	63
Jan 2023	36	28	2	66
Feb 2023	27	14	1	42
Mar 2023	24	20	0	44
Apr 2023	23	11	3	37
May 2023	19	19	0	38
Jun 2023	37	17	2	56
Jul 2023	22	30	3	55
Aug 2023	24	16	6	46
Sep 2023	16	17	2	35
Oct 2023	25	14	2	41
Nov 2023	13	9	0	22
Dec 2023	14	7	1	22
Jan 2024	26	9	0	35
Feb 2024	26	26	2	54
Mar 2024	28	28	1	57
Apr 2024	38	10	4	52
May 2024	38	14	4	56
Jun 2024	61	16	2	79
Jul 2024	54	4	2	60
Aug 2024	53	12	2	67
Sep 2024	26	9	0	35
Oct 2024	38	19	1	58
Nov 2024	24	9	0	33
Dec 2024	20	4	1	25
Jan 2025	31	19	0	50
Feb 2025	33	14	1	48
Mar 2025	45	15	0	60
Apr 2025	52	20	3	75
May 2025	42	11	0	53
Jun 2025	48	32	0	80
Jul 2025	55	22	3	80
Aug 2025	43	25	1	69
Sep 2025	65	19	2	86
Oct 2025	54	23	1	78
Nov 2025	52	28	4	84
Dec 2025	59	56	3	118
Jan 2026	88	20	13	121
Feb 2026	73	24	4	101
Mar 2026	57	33	5	95
Apr 2026	86	35	6	127
May 2026	1	0	1

Viewed (geographical distribution)

Total article views: 4,116 (including HTML, PDF, and XML) Thereof 3,861 with geography defined and 255 with unknown origin.

Country	#	Views	%

1

1

Cited

Saved (final revised paper)

Latest update: 06 May 2026

Short summary

Climate change affects precipitation phase, which can propagate into changes in streamflow timing and magnitude. This study examines how variations in rainfall and snowmelt affect discharge. We found that annual discharge and stream cessation depended on the magnitude and timing of rainfall and snowmelt and on the snowpack melt-out date. This highlights the importance of precipitation timing and emphasizes the need for spatiotemporally distributed simulations of snowpack and rainfall dynamics.